JPWO2012001806A1 - Contact lens disinfectant and contact lens disinfection system - Google Patents

Abstract

To provide a contact lens disinfectant that can effectively remove contact lens protein stains while effectively disinfecting contact lenses with hydrogen peroxide, and can improve storage stability and enable long-term storage. It is a solution issue. As a disinfectant used for disinfecting contact lenses, a hydrogen peroxide-containing aqueous solution having a hydrogen peroxide concentration of 1 to 5% is allowed to contain an A component composed of a compound having at least one carboxyl group in the molecule, The B component consisting of a compound having a plurality of hydroxyl groups in the molecule was contained, and the pH was adjusted to 6-8.

Description

  The present invention relates to a contact lens disinfectant and a contact lens disinfection system using the same, and more particularly to a technique capable of effectively disinfecting and cleaning a contact lens using hydrogen peroxide. is there.

  Conventionally, a disinfection system using hydrogen peroxide has been widely known as one of methods for chemically disinfecting contact lenses, particularly soft contact lenses. Hydrogen peroxide used therein is an effective disinfectant and is particularly attractive for disinfecting contact lenses in that the decomposition product is merely water. Since it is a violent oxidizer, hydrogen peroxide must be completely removed from the lens before the disinfected contact lens is put on the eye again.

  That is, in the chemical disinfection method using hydrogen peroxide, in order to obtain a desired disinfection effect, a concentration of about 3% is usually required as hydrogen peroxide, and after disinfection, Neutralization treatment is required to decompose and detoxify hydrogen peroxide remaining on the surface and inside of the contact lens. For this reason, preparations for neutralization (solutions, tablets, etc.) apart from disinfectants. Was necessary. From this, the contact lens user feels inconvenience in disinfection of the contact lens using hydrogen peroxide and forgets such neutralization after disinfection and wears the contact lens. Misuse was also a problem.

  Therefore, in order to facilitate the disinfection of contact lenses using hydrogen peroxide, Japanese Patent Publication No. 4-507052 (Patent Document 1) discloses a vertical contact lens case as a contact lens sterilizer. In which a sterilizing solution containing hydrogen peroxide is contained in a contact lens case, while a contact lens to be treated and a catalyst member made of a catalytic metal such as platinum are arranged to form the sterilizing solution. By making the contact lens sterilized or sterilized, the method of neutralizing the hydrogen peroxide in the sterilizing solution with the catalyst member is clarified. As a result, the above-mentioned inconvenience problem and misuse problem have been improved to some extent. In this system, the contact lens must be sterilized with a single solution, and after neutralization, the contact lens must be stored and kept in a state where it can be worn on the eye. In addition to hydrogen peroxide, isotonic agents and buffering agents that adjust the osmotic pressure and pH of the solution to the same level as tears will be included in the disinfectant solution. Tonicity agents and buffering agents are generally not provided with the function of cleaning contact lenses.

  By the way, it is known that contact lenses are contaminated with dirt such as lipids and proteins existing in tear fluid during wearing, and in particular, proteins are left as they are attached to contact lenses. Then, it is also well known that degeneration is an irreversible structural change. The protein thus denatured is recognized as a heterologous protein in the eye, causing conjunctival hyperemia as an allergic reaction, and in severe cases, may cause giant papillary conjunctivitis. It is known. For this reason, it has been desired to add a component that removes protein stains to the disinfecting solution containing hydrogen peroxide as a cleaning component, but products that can fully demonstrate the effect have not yet been developed. The current situation is not.

  Under such circumstances, for users who easily adhere to protein stains on contact lenses, and users who wear contact lenses of a type that will be used for a long period of time, using an optional cleaning agent containing a proteolytic enzyme and a powerful cleaning agent, The contact lens had to be cleaned regularly. However, in order to prevent the inconvenience of regular cleaning and forgetting to clean, not only general isotonic agents and buffering agents, but also ingredients that can simultaneously clean contact lenses, One-part hydrogen peroxide preparation (disinfectant) has been desired.

  In addition to such cleaning components, in order to reduce the feeling of dryness of the contact lens during wearing, it is possible to assist the wearing of a comfortable contact lens such as a wetting agent having a function of moisturizing the contact lens. There is also a growing demand for the inclusion of components having high value-added functions. In particular, with the widespread use of personal computers, the number of blinks may decrease and the eyes may dry out due to staring at the monitor, but especially when wearing contact lenses. It is also known that the feeling becomes worse. For this reason, there has been a demand for a product that can support comfortable wearing of contact lenses, not only for disinfection, but also for multiple functions such as cleaning and moisturization. -ing However, due to the strong oxidizing power of hydrogen peroxide, even when it coexists with hydrogen peroxide for a long time, it becomes difficult to maintain the stability of the added component, and it has multiple functions. It was a difficult situation to prepare a new product.

  Japanese Patent No. 2642398 (Patent Document 2) discloses a hydrogen peroxide aqueous solution for disinfecting contact lenses, a first peroxide stabilizer composed of alkanols of diphosphonic acid, glycerin, PVA, and propylene glycol. It has been clarified that a disinfectant is constituted by containing a second peroxide stabilizer such as polyacrylic acid and further containing a tension enhancer, a thickener, a buffering agent, and the like. However, it was only intended to stabilize hydrogen peroxide by containing the first and second hydrogen peroxide stabilizers. In JP 2003-121805 (Patent Document 3), in a contact lens disinfection system using hydrogen peroxide, an aqueous solution containing hydrogen peroxide and a surfactant is rubbed against the surface of the contact lens. A method for removing proteins, lipids, and other deposits on the lens surface by immersing in the aqueous solution for a sufficient period of time has been clarified. It is only described that the foaming action of the surfactant synergistically acts on the dirt on the lens surface, so that the dirt on the lens surface is easily decomposed and removed.

Japanese National Patent Publication No. 4-507052 Japanese Patent No. 2642398 JP 2003-121805 A

  Here, the present invention has been made in the background as described above, and the problem to be solved is that the contact lens is effectively sterilized with hydrogen peroxide while the contact lens is effectively disinfected. It is an object of the present invention to provide a contact lens disinfecting solution that can advantageously remove protein stains, improve storage stability and enable long-term storage, and further provides a contact lens disinfection solution using such a disinfecting solution. It is to provide an effective disinfection system.

  And in order to solve the above-mentioned problem or the problem grasped from the description of the entire specification, the present invention can be suitably implemented in various aspects as listed below. Each aspect described in the above can be employed in any combination. It should be noted that the aspects or technical features of the present invention are not limited to those described below, and can be recognized based on the inventive concept grasped from the description of the entire specification. Should be understood.

(1) As a disinfectant used for disinfecting contact lenses, a hydrogen peroxide-containing aqueous solution having a hydrogen peroxide concentration of 1 to 5% contains an A component composed of a compound having at least one carboxyl group in the molecule. A disinfecting solution for contact lenses, further comprising a component B comprising a compound having a plurality of hydroxyl groups in the molecule and having a pH adjusted to 6-8.
(2) The disinfection for contact lenses according to the aspect (1), wherein the A component and the B component are contained at a ratio of 5/1 to 1/3 in a weight ratio of A component / B component. liquid.
(3) The contact lens disinfectant according to the aspect (1) or (2), wherein the component A has 1 to 3 carboxyl groups in the molecule.
(4) The embodiments (1) to (3), wherein the component A is selected from the group consisting of glycolic acid, lactic acid, tartaric acid, succinic acid, fumaric acid, maleic acid, malic acid, aconitic acid, glutaric acid and citric acid. The disinfectant for contact lenses according to any one of the above.
(5) The above aspect (1) wherein the component B is selected from the group consisting of polyhydric alcohols having a hydrocarbon group having 3 to 20 carbon atoms, monosaccharides, oligosaccharides of 2 to 5 sugars, sugar alcohols and polyethylene glycols. ) Disinfectant for contact lens according to any one of (4) to (4).
(6) The antiseptic solution for contact lenses according to any one of the aspects (1) to (5), wherein the component A is contained at a concentration of 0.01 to 1%.
(7) The contact lens disinfecting solution according to any one of the aspects (1) to (6), wherein the contact lens is a soft contact lens.
(8) Hydrogen peroxide-containing disinfectant having a hydrogen peroxide concentration of 1 to 5% used for disinfection treatment is brought into contact with a decomposition / neutralizing agent comprising a metal catalyst, an enzyme agent or a reducing agent to neutralize the solution. Contact lens disinfection system
A contact lens disinfection system using the disinfectant according to any one of the above aspects (1) to (7) as the disinfectant.
(9) The contact lens according to the aspect (8), wherein a metal catalyst is used as the decomposition / neutralizing agent, while a compound having a carboxyl group but not an amino group is used as the component A. Disinfection system.
(10) The contact lens disinfection system according to the aspect (9), wherein the metal catalyst is a metal film catalyst.
(11) The metal catalyst is disposed in a predetermined processing container for disinfecting the contact lens, and the disinfecting liquid is accommodated in the processing container, and the disinfecting liquid accommodated in the metal catalyst. The contact lens disinfection system according to any one of the aspects (8) to (10), wherein the contact lens is brought into contact with each other.

  As described above, in the contact lens disinfecting solution according to the present invention, a predetermined compound (component A) having at least one carboxyl group in the molecule is contained in an aqueous solution containing hydrogen peroxide. In addition to being able to exhibit an effective disinfection action under the strong oxidizing power of hydrogen peroxide, a very excellent protein removal ability can be effectively exhibited, Inclusion of a predetermined compound (component B) having a plurality of hydroxyl groups in the molecule and further adjusting the pH of the disinfectant solution to near neutrality effectively suppresses the increase in pH of the disinfectant solution. As a result, the storage stability of the disinfectant can be remarkably improved, and a disinfectant for contact lenses that can be stored for a long period of time can be advantageously provided.

  Moreover, according to the disinfection system according to the present invention, the contact lens disinfecting solution according to the present invention having excellent storage stability is used, so that effective disinfection of contact lenses with hydrogen peroxide can be realized. In addition, since the component B contained in such a disinfectant solution has a plurality of hydroxyl groups in the molecule, the contact is sterilized by water molecules hydrated to the hydroxyl groups. An effective wetting effect can also be effectively imparted to the lens.

  By the way, in the contact lens disinfectant according to the present invention, the hydrogen peroxide concentration is adjusted to 1 to 5% (weight basis). In addition, when the content of hydrogen peroxide is less than the above range, there is a problem that the disinfection effect of the contact lens due to hydrogen peroxide cannot be sufficiently exerted, and conversely, when the content exceeds the above range. In addition to the excellent disinfection effect, it takes time for the neutralization treatment, or causes problems such as decomposition of hydrogen peroxide and the need to increase the amount of catalyst used for neutralization. Due to insufficient neutralization treatment, hydrogen peroxide tends to remain on the surface and inside of the contact lens, and there are problems such as concern about adverse effects on the eyes. And in avoiding these problems advantageously, in this invention, especially the hydrogen peroxide concentration of about 2 to 4 weight% will be employ | adopted suitably.

  Such a disinfectant solution (hydrogen peroxide-containing aqueous solution) has a carboxyl group in the molecule as an A component having excellent protein removal ability in order to remove protein soil as well as disinfect according to the present invention. The organic carboxylic acid which is a compound is contained. This organic carboxylic acid generally has 1 to 3 carboxyl groups and exhibits excellent ability to remove protein stains attached to the contact lens under the disinfection treatment with hydrogen peroxide. Effective cleaning (removal of protein stains) can be performed.

  As the organic carboxylic acid used as the component A, various known organic carboxylic acids that have been conventionally applicable to the treatment of contact lenses can be appropriately selected and used. However, particularly in the present invention, glycolic acid, lactic acid, tartaric acid, succinic acid, fumaric acid, maleic acid, malic acid, aconitic acid, glutaric acid, citric acid and the like are preferably used.

  Such a predetermined organic carboxylic acid is generally at least 0.01% or more by weight based on the weight of the disinfecting solution in order to effectively remove the protein soil targeted by the present invention. It is desirable to be included at a ratio of 0.05% or more. The upper limit of the content of the A component is generally about 1% by weight, preferably about 0.8% by weight, particularly preferably about 0.6% by weight. Depending on the type, the concentration is appropriately determined so that the object of the present invention can be sufficiently achieved.

  By the way, in the hydrogen peroxide preparation (disinfectant) in which such A component is added and contained, the pH of the preparation gradually increases due to the strong oxidizing power of hydrogen peroxide when stored for a long time. However, it has been found that it becomes strongly alkaline. Thus, when hydrogen peroxide is in a strongly alkaline state where the pH usually exceeds 8, the generation rate of highly reactive OH radicals increases, and the decomposition rate increases rapidly. Therefore, it becomes difficult to stably store for a long time. For this reason, the present inventors have conducted various studies on components that can suppress the increase in pH of the disinfectant solution caused by the A component, and as a result, have found a B component having a plurality of hydroxyl groups (OH groups) in the molecule. In addition, it can be contained together with such an A component, and further, by adjusting the pH of the disinfecting solution to around neutrality, the pH increase due to the A component can be effectively suppressed, and the storage stability of the disinfecting solution can be remarkably improved. Based on this, in the present invention, the B component is present in the hydrogen peroxide-containing disinfecting solution together with the A component. Moreover, such a compound having a plurality of hydroxyl groups as the B component is hydrated with water due to the presence of the plurality of hydroxyl groups, and is effective for contact lenses to be treated. A wetting effect can also be imparted.

  Specifically, the B component that suppresses the increase in pH due to such an A component is an organic compound having a plurality of OH groups in the molecule and can be applied to the treatment of contact lenses. Although it can be appropriately selected and used, in the present invention, in particular, a polyvalent compound having a hydrocarbon group having 3 to 20 carbon atoms such as propylene glycol, glycerin, hexanetriol, and 1,2-pentanediol. Those selected from alcohol, various monosaccharides, oligosaccharides of 2 to 5 sugars such as trehalose, sugar alcohols such as erythritol and sorbitol, polyethylene glycol, and the like are preferably used.

  Further, the content of the B component in the disinfectant is appropriately selected according to the content ratio of the A component, and is generally a ratio of 5/1 to 1/3 in the weight ratio of the A component / B component. It will be made to contain so that it may become. In addition, it is because there exists a possibility that the suppression effect of the pH rise by B component may not fully be exhibited when the ratio of A component with respect to B component increases, and when the ratio of B component with respect to A component increases, This is because it becomes difficult to sufficiently exert the treatment effect by the component A, and problems such as an increase in the liquid pH due to the component B are likely to be caused.

  Furthermore, in the present invention, the pH of the disinfectant solution containing the above-mentioned specific A component and B component together with a predetermined concentration of hydrogen peroxide is adjusted to 6-8. An acid or an alkali agent is used for this pH adjustment. In particular, in the preparation of a hydrogen peroxide-containing disinfecting solution, generally, a commercially available appropriate aqueous hydrogen peroxide solution is used. For the stability of the solution, such an aqueous hydrogen peroxide solution has a predetermined amount. In the present invention, a known appropriate alkaline agent such as sodium hydroxide or potassium hydroxide is preferably added together with the above-described A component and B component because it is maintained in an acidic state. Thus, the pH of the aqueous hydrogen peroxide solution is adjusted, and thus the resulting disinfectant solution is prepared to have a pH of 6-8.

  If the pH of the disinfectant solution is lower than 6, it becomes impossible to wear the disinfected contact lens on the eye as it is, and if the pH is too low, the stability of hydrogen peroxide. In addition, when a metal catalyst is used in the neutralization treatment, problems such as adversely affecting the neutralization efficiency of hydrogen peroxide are caused, and the pH exceeds 8. As a result, the stability of the disinfecting solution decreases, and problems such as difficulty in long-term storage of the disinfecting solution are caused.

  Further, in the disinfecting solution used in the present invention as described above, in addition to the above-described essential components such as hydrogen peroxide and specific A component and B component, in the preparation of a normal contact lens solution, if necessary. Various known additive components used, such as chelating agents, surfactants, tonicity agents, buffers, thickeners, preservatives, etc., alone or in combination of two or more. There is no problem even if it is done. However, each of these components must be safe to the living body and acceptable in terms of ophthalmic physiology, and should not inhibit the actions and effects of the present invention as described above. In addition, each is used in a quantitative range that does not impair the effect.

  In particular, the chelating agent can further improve the stability of the disinfectant according to the present invention and can be advantageously stored for a long period of time. Among them, EDTA (ethylenediaminetetraacetic acid) or a salt thereof, etidronic acid or the like Salts, DTPMP [diethylenetriaminepenta (methylenephosphonic acid)], sodium stannate and the like are advantageously used. Such a chelating agent is generally contained in the disinfectant solution at a concentration of about 0.01 to 0.5% by weight.

  In addition to disinfecting contact lenses, surfactants may be further incorporated for the purpose of cleaning contact lenses. Such surfactants have conventionally been used in contact lens solutions and the like. Any of known anionic surfactants, nonionic surfactants, amphoteric surfactants, and cationic surfactants that are commonly used can be advantageously employed. An effective cleaning effect such as lipid removal action is provided. Among them, in the present invention, nonionic surfactants are preferably used. Specifically, polyethylene glycol ethers of higher alcohols, polyethylene glycol esters of higher fatty acids, polyglycerol esters of higher fatty acids, polyethylene glycol ethers of alkylphenols, Polyethylene glycol sorbitan alkyl ester, polyoxyethylene-polyoxypropylene glycol (poloxamer), ethylenediaminetetrapolyoxyethylene polyoxypropylene (poloxamine), etc. can be mentioned, among them, in particular, blocks of polyoxyethylene and polyoxypropylene Copolymers or derivatives thereof (poloxamer or poloxamine) are advantageously used.

  Further, an isotonic agent is added to easily adjust the osmotic pressure of the disinfecting solution before disinfecting the contact lens, and thus the disinfecting solution after disinfecting, and is added to the contact lens solution. It is appropriately selected from various known isotonic agents that are generally used.

  In preparing the disinfecting solution according to the present invention, no special method is required, and each component is added to the aqueous medium in the same manner as in the case of preparing a normal contact lens solution. The desired disinfectant solution can be easily obtained by adding them sequentially or simultaneously or in combination as appropriate and dispersing or dissolving them. In that case, as the aqueous medium used, in addition to normal water itself such as purified water or distilled water, a solution mainly composed of water may be used, for example, physiological saline, contact lens storage solution, cleaning solution Needless to say, it is also possible to use a known aqueous solution such as the above.

  And even after the disinfecting solution according to the present invention thus obtained is stored for a long time after its preparation, the increase in pH due to the presence of the A component is effectively suppressed by the B component. Thus, since most of hydrogen peroxide is effectively present without being decomposed, such a disinfecting solution can be advantageously used for disinfecting contact lenses over a long period of time. In addition to being able to effectively eliminate contact lens protein stains by the A component present in such disinfectants, it has been treated by the presence of the B component. The contact lens can also have an effective wetting effect.

  In the present invention, the contact lens to be disinfected is immersed in the disinfectant solution thus prepared, so that the contact lens is disinfected with hydrogen peroxide. And protein soil removal treatment (washing treatment) are performed simultaneously. In addition, after performing such a disinfection process for a time sufficient for the contact lens to be disinfected, the hydrogen peroxide is decomposed so that the hydrogen peroxide does not remain in the disinfectant solution, In order to neutralize, the disinfecting solution in which the contact lens is immersed is brought into contact with a predetermined decomposition / neutralizing agent in the same manner as before, so that the decomposition / neutralization treatment by contact with hydrogen peroxide is performed. Will be done. At that time, known decomposition / neutralizing agents are appropriately employed, such as metal catalysts such as platinum, enzyme agents such as peroxidase and catalase, or sodium sulfite, pyruvic acid, sodium thiosulfate, etc. However, particularly in the present invention, a metal catalyst is advantageously used.

  Specifically, a metal catalyst that realizes a neutralization process that comes in contact with hydrogen peroxide present in the disinfectant solution, decomposes it, and renders it harmless so as not to adversely affect the eyes. Conventionally, various known ones that have been conventionally used for the decomposition and neutralization treatment of hydrogen peroxide are appropriately selected. For example, platinum is preferably used as such a metal catalyst, but other metals such as palladium, silver, copper, manganese, cobalt, and aluminum, or oxides of such metals can also be used. It is.

  These metals or their oxides can be formed as metal catalysts in the same catalyst form as in the prior art, but in the present invention, in particular, a metal film catalyst, in other words, the aforementioned metal Alternatively, a catalyst in which the oxide is deposited and formed on a predetermined base material is advantageously used. Specifically, such a metal film catalyst is formed by coating the above-described catalyst metal on the surface of a substrate of various shapes such as a disk or a flat plate having a predetermined size by a known thin film forming method such as plating or sputtering. What is formed is used, and when placed in the disinfecting solution, it is brought into contact with hydrogen peroxide present in the disinfecting solution. In addition, as the material of the base material, at least one selected from the group consisting of plastic, metal, glass, ceramic, ion exchange resin and the like is preferably used. Further, therefore, plastic materials include acrylonitrile / butadiene / styrene (ABS) resin, polyurethane, modified polyphenylene ether, polystyrene, polycarbonate, polyethylene terephthalate (PET), polybutylene terephthalate (PBT), polyvinyl chloride, polyetherimide, Polysulfone, polymethyl methacrylate, and copolymer resins thereof can be suitably used.

  Moreover, as a method of the above-mentioned disinfection treatment or neutralization treatment, various known methods are appropriately employed. For example, a contact lens and a decomposition / neutralizing agent such as a metal catalyst are charged or immersed in the disinfecting solution simultaneously or sequentially in a state where a predetermined amount of the disinfecting solution is contained in a predetermined processing container. In addition to the method of disinfecting and neutralizing, disinfecting solution is injected into the processing container in a state where decomposition / neutralizing agents such as contact lenses and metal catalysts are placed in the container. In the state where either the contact lens and the neutralization treatment are performed in parallel or the contact lens and the decomposition / neutralizing agent are placed in the treatment container, the disinfectant is contained, and then the contact lens and the decomposition / neutralization agent A method of immersing one of the other in a disinfecting solution and bringing it into contact with each other will be appropriately employed.

  Furthermore, even in the structure of the processing container used there, a known processing container for contact lens processing using a liquid agent can be appropriately selected and used. More specifically, The sterilizer having the structure as disclosed in Patent Document 1 can be used as it is. In any case, if the contact lens and the decomposition / neutralizing agent such as a metal catalyst are accommodated and disposed, they can be immersed in the disinfecting solution and brought into contact with each other. Processing containers can also be employed.

  Even when the contact lens is sterilized as described above, the disinfecting solution according to the present invention maintains the pH of 6 to 8 due to the presence of the A component and the B component. In the disinfection system, it is advantageous that the disinfection solution used for the disinfection / neutralization of contact lenses (unused) is advantageously such that the disinfection solution after neutralization has an osmotic pressure of 250 to 350 mOsm. The content of these components is adjusted, the addition amount of the additive component added is adjusted as necessary, and a known isotonic agent is added and contained as necessary. . By adjusting the osmotic pressure of the sterilizing solution after such neutralization, the osmotic pressure of the sterilizing solution becomes substantially equal to the osmotic pressure of tear fluid. There is a feature that allows it to be worn on the eye as it is. Even if the contact lens with the antiseptic solution remaining on and attached to the lens surface is worn as it is and the antiseptic solution may enter the eye, irritation to the wearer's eyes can be advantageously reduced, Adverse effects on the eye can be advantageously avoided.

  In addition, the contact lens targeted in the disinfectant solution or disinfection system according to the present invention is not limited in any way, and may be, for example, water-containing or non-water-containing, soft or hard materials. Regardless, all types of contact lenses can be targeted, and the material of the contact lenses is not questioned when applying the present invention. However, since the conventional disinfection system using hydrogen peroxide is used for disinfecting soft contact lenses, even in the present invention, it is mainly applied to disinfection of soft contact lenses. . Here, as a soft contact lens, one made of a hydrous hydrogel is known, and representative examples thereof include 2-hydroxyethyl methacrylate, N, N-dimethylacrylamide, N-vinyl-2- These are formed from polymers or copolymers of hydrophilic monomers such as pyrrolidone and methacrylic acid. Recently, however, these hydrophilic monomers are combined with a hydrophobic monomer containing silicone to form a copolymer. A contact lens made of silicon hydrogel, which is a copolymer produced by polymerization, is also included in the soft contact lens, and the present invention can also be applied to such a soft contact lens. .

  Further, after the disinfection system according to the present invention is applied, the contact lens subjected to the disinfection treatment is usually taken out from the disinfecting solution and worn on the eyes. The hydrogen peroxide in the solution has been subjected to neutralization treatment using a metal catalyst decomposition / neutralizing agent, so the amount of hydrogen peroxide remaining in the disinfectant is extremely small, and contact Since the hydrogen peroxide attached to the lens or remaining in the lens is almost negligible, no matter what happens even if the contact lens taken out from the disinfectant is put on the eye as it is. This problem will not be caused, and it can be safely worn.

  Hereinafter, representative examples of the present invention will be shown to clarify the present invention more specifically, but the present invention is not limited by the description of such examples. It goes without saying. In addition to the following examples, the present invention includes various changes and modifications based on the knowledge of those skilled in the art without departing from the spirit of the present invention, in addition to the specific description described above. It should be understood that improvements can be made.

Example 1
First, use a commercially available aqueous hydrogen peroxide solution, dilute it with distilled water, adjust to the various concentrations shown in Tables 1 to 6 below, and add various additive components shown in those tables. By containing, various disinfectant liquid samples according to Experimental Examples 1-41 were prepared. Moreover, when preparing such a disinfectant solution sample, hydrochloric acid was used as the acid, or caustic soda was used as the alkaline agent to obtain a disinfectant solution sample having a target pH value.

  In addition, in the additive components in the table below, DTPMP [diethylenetriaminepenta (methylenephosphonic acid)] and sodium stannate are used as chelating agents, glycolic acid, tartaric acid, succinic acid, malic acid and citric acid are used as the A component. PG (propylene glycol), PEG (polyethylene glycol) 1500, PEG 4000, erythritol and trehalose are added as the B component, and NaCl and hydrogen phosphate Na are added as other auxiliary components such as an isotonic agent and a buffer, It can be contained.

  In addition, for each disinfectant sample prepared as described above, 100 mL of the sample was stored in a plastic bottle and evaluated under accelerated conditions (80 ° C. × 2 weeks) in order to evaluate the long-term storage stability of each solution. After being stored in the above, the residual rate of hydrogen peroxide in each disinfectant solution sample is determined by measuring with the “oxide titration method” described in the Japanese Pharmacopoeia, and when the residual rate is 90% or more Is evaluated as ◎, when it is 70% or more and less than 90%, Δ when it is 50% or more and less than 70%, and × when it is less than 50%, and the results are shown in Tables 1 to 6 below. Also shown. In addition, for each disinfectant solution sample after evaluation of storage stability under such acceleration conditions, the solution pH is measured, and the value is 6.9 or more and less than 7.5. ◎, ○ if 6.6 or more and less than 6.9 and 7.5 or more and less than 7.8, ○, if 6.2 or more and less than 6.6 and 7.8 or more and less than 8.2 Δ, otherwise evaluated as ×, and the results are shown in Tables 1 to 6 below.

  In the disinfectant solution sample thus prepared, as shown in Tables 1 to 6 above, all of the disinfectant solution samples according to Experimental Examples 1 to 23 according to the present invention are accelerated conditions (80 ° C. × 2 weeks), the residual rate of hydrogen peroxide is high, its liquid stability is excellent, and the pH of the disinfectant after accelerated evaluation is in the range of 6-8. It is recognized that In addition, in the experimental example 1, in the case where lactic acid, fumaric acid, maleic acid, malic acid, aconitic acid, or glutaric acid is used in place of glycolic acid (component A), PG ( It has been confirmed that the same effect can be obtained when glycerin, hexanetriol, 1,2-pentanediol, or sorbitol is used in place of component B).

  On the other hand, in the disinfectant liquid samples of Experimental Examples 24 to 29 in which only the component A was added, the disinfectant liquid pH immediately after the preparation was adjusted to 7.4 and stored under accelerated conditions. In this case, the pH of the solution exceeds 8 and there is almost no hydrogen peroxide remaining, and the function as a disinfectant is lost. In addition, only the B component is contained. In the disinfecting liquid samples of Experimental Examples 30 to 38, although the residual ratio of hydrogen peroxide is high even after evaluation of liquid stability under accelerated conditions, the liquid pH after such stability evaluation Therefore, it is recognized that it is impossible to wear the disinfected contact lens on the eye as it is. In addition, even when the A component and the B component are contained, in the disinfecting solution samples of Experimental Examples 39 and 40 whose pH immediately after preparation of the disinfecting solution is lower than 6, after the evaluation of the liquid stability under accelerated conditions, However, if the liquid pH remains low or the liquid pH becomes too low, a problem that the residual rate of hydrogen peroxide decreases is also caused (see Experimental Example 39). In the obtained disinfectant solution sample, since the pH immediately after its preparation is a strong alkalinity of 9.0, the residual rate of hydrogen peroxide is 0, there is no function as a disinfectant solution, and the contact lens It was confirmed that it cannot be used for the disinfection of

-Example 2-
Using the disinfectant sample prepared in the composition shown in Table 7 below together with the disinfectant sample prepared in Example 1 (Experimental Examples 1, 4, 11, 12, 13, 18, and 28), each disinfectant was used. The removal effect of the protein soil of the liquid sample was evaluated. The results are shown in Table 7 below. In addition, as the contact lens, “Acuvue 2 lens” (manufactured by Johnson & Johnson), which is an ionic high water content contact lens classified as group IV which is easily contaminated with protein, was used.

  The protein soil removal effect test was performed as follows: First, six of the above-mentioned test lenses were put in a test tube, and they were cut into pieces using a pulverizer. Next, the fragmented lens piece is accommodated in an injection container with a filter for holding the lens piece on the bottom surface, washed thoroughly with purified water, and then the injection container containing the lens piece. After sealing the tip, 2 mL of a separately prepared artificial protein solution was added to the injection container, mixed with the lens piece, and sufficiently infiltrated using a vortex mixer. After that, discard the artificial protein solution in the injection container, and after pouring the remaining artificial protein solution lightly with purified water, add 2 mL of each disinfectant sample and mix well with a vortex mixer. Was washed. Next, each disinfectant sample after such washing was collected, and the absorbance at a wavelength of 281 nm was measured to calculate the amount of lysozyme removed per lens [μg / lens]. The same operation was performed using a blank without a lens piece as a blank, and the calculated value was corrected. In addition, the artificial protein solution used above (100 mL scale) was prepared by accurately weighing lysozyme derived from egg white: 0.12 g and calcium chloride: 0.011 g, and dissolving them in purified water. Was carried out by setting the weight to 100 g.

  As is clear from the results in Table 7, each of the disinfectant solution samples according to the present invention (related to Experimental Examples 1, 4, 11, 12, 13, and 18) was able to obtain an excellent protein removal effect. However, when the disinfectant solution sample according to Experimental Examples 42 and 43 which do not contain the component A is used, it is recognized that the amount of protein removal is small and a sufficient function of removing protein dirt cannot be achieved.

Example 3
Along with each disinfectant sample obtained in Example 1 (Experimental Examples 1, 11, 12 and 13), each disinfectant sample of Experimental Examples 44 to 47 prepared with the composition shown in Table 8 below was used. In each case, disinfection / neutralization of contact lenses to be disinfected was carried out. Specifically, using a commercially available soft contact lens: Monthwear (Group II: manufactured by Menicon Co., Ltd.), in order to perform disinfection / neutralization treatment, first, 10 mL of each disinfectant solution sample is accommodated in a processing container, In addition to the contact lens, a commercially available platinum catalyst (Cibavision, Aocept), catalase enzyme (AMO, Concept One Step), or sodium thiosulfate (Off-Tex, Bioclenchemcept) is added to disinfect The neutralization process was started. And about each disinfection liquid sample which exists in the processing container 4 hours after the start of the disinfection / neutralization treatment, the residual amount of hydrogen peroxide was subjected to oxidation-reduction titration using a 0.02 mol / L potassium permanganate solution. When the residual amount is less than 100 ppm, ◎, when 100 ppm or more and less than 200 ppm, ◯, when 200 ppm or more and less than 500 ppm, Δ, when 500 ppm or more, evaluation of neutralization rate The results are also shown in Table 8 below.

As is apparent from the results in Table 8, when amino acids such as taurine, glycine, and aspartic acid are used as the A component, such amino acids bind to the surface of the catalytic metal, thereby reducing the catalytic effect. As a result, the result that the residual amount of hydrogen peroxide in the disinfectant after neutralization is high is obtained. On the other hand, in each of the disinfectant samples of Experimental Examples 1, 11, 12, and 13 using an organic carboxylic acid that does not contain such an amino acid, in other words, has a carboxyl group but does not have an amino group, as the A component. Even if any of a platinum catalyst, an enzyme agent or a reducing agent is used as a decomposition / neutralizing agent, an effective neutralization treatment is realized, and the amount of residual hydrogen peroxide is extremely small, realizing an excellent neutralization treatment. I can admit that it has been done.

(1) As a disinfectant used for disinfecting contact lenses, a hydrogen peroxide-containing aqueous solution having a hydrogen peroxide concentration of 1 to 5% is added to glycolic acid, lactic acid, tartaric acid, succinic acid, fumaric acid, maleic acid, apple A component selected from the group consisting of acid, aconitic acid, glutaric acid and citric acid is contained, and further, a B component selected from the group consisting of sugar alcohol and polyethylene glycol is added, and the pH is 6 to A contact lens disinfectant characterized by being adjusted to 8.
(2) The disinfection for contact lenses according to the aspect (1), wherein the A component and the B component are contained at a ratio of 5/1 to 1/3 in a weight ratio of A component / B component. liquid.
( 3 ) The antiseptic solution for contact lenses according to the aspect (1) or ( 2), wherein the component A is contained at a concentration of 0.01 to 1%.
( 4 ) The contact lens disinfecting solution according to any one of the aspects (1) to ( 3 ), wherein the contact lens is a soft contact lens.
( 5 ) Hydrogen peroxide-containing disinfectant solution with a hydrogen peroxide concentration of 1 to 5% used for disinfection treatment is brought into contact with a decomposition / neutralizing agent consisting of a metal catalyst, an enzyme agent or a reducing agent, and neutralized. Contact lens disinfection system
A disinfection system for a contact lens, wherein the disinfecting liquid according to any one of the aspects (1) to ( 4 ) is used as the disinfecting liquid.
(6) disinfection system of Examples decomposition and neutralizing agent, contact lens according to prior SL aspect (5) of the metal catalyst is Ru is used.
( 7 ) The contact lens disinfection system according to the aspect ( 6 ), wherein the metal catalyst is a metal film catalyst.
( 8 ) The metal catalyst is placed in a predetermined processing container for disinfecting the contact lens, the disinfecting liquid is accommodated in the processing container, and the disinfecting liquid accommodated in the metal catalyst. The contact lens disinfection system according to any one of the aspects ( 5 ) to ( 7 ), wherein the contact lens is brought into contact with the contact lens.

Moreover, according to the disinfection system according to the present invention, the contact lens disinfecting solution according to the present invention having excellent storage stability is used, so that effective disinfection of contact lenses with hydrogen peroxide can be realized. At the same time, since the specific B component contained in such a disinfectant has a plurality of hydroxyl groups in the molecule, it is disinfected by water molecules hydrated to the hydroxyl groups. Therefore, an effective wetting effect can be effectively imparted to the contact lens.

Such a disinfectant solution (hydrogen peroxide-containing aqueous solution) has a carboxyl group in the molecule as an A component having excellent protein removal ability in order to remove protein soil as well as disinfect according to the present invention. A specific organic carboxylic acid which is a compound is contained. This organic carboxylic acid generally has 1 to 3 carboxyl groups and exhibits excellent ability to remove protein stains attached to the contact lens under the disinfection treatment with hydrogen peroxide. Effective cleaning (removal of protein stains) can be performed.

As the organic carboxylic acid used as such A component, especially, in the present invention, glycolic acid, lactic acid, tartaric acid, succinic acid, fumaric acid, maleic acid, malic acid, aconitic acid, glutaric acid and one selected from the group consisting of citric acid, and thus used.

By the way, in the hydrogen peroxide preparation (disinfectant) in which such A component is added and contained, the pH of the preparation gradually increases due to the strong oxidizing power of hydrogen peroxide when stored for a long time. However, it has been found that it becomes strongly alkaline. Thus, when hydrogen peroxide is in a strongly alkaline state where the pH usually exceeds 8, the generation rate of highly reactive OH radicals increases, and the decomposition rate increases rapidly. Therefore, it becomes difficult to stably store for a long time. Therefore, the present inventors have conducted various studies on components that can suppress the increase in the pH of the disinfectant solution due to such component A, and as a result, specific B having a plurality of hydroxyl groups (OH groups) in the molecule. By containing the component together with the component A, and further adjusting the pH of the disinfectant solution to near neutrality, the increase in pH due to the component A is effectively suppressed, and the storage stability of the disinfectant solution is significantly improved. Based on this, in the present invention, the B component is present in the hydrogen peroxide-containing disinfecting solution together with the A component. Moreover, such a compound having a plurality of hydroxyl groups as the B component is hydrated with water due to the presence of the plurality of hydroxyl groups, and is effective for contact lenses to be treated. A wetting effect can also be imparted.

Specifically, particular B component suppressing increase in pH by such component A, an organic compound having a plurality of OH groups in the molecule, especially, in the present invention, d Risuritoru, sugar alcohols such as sorbitol, and those selected from the group consisting of polyethylene glycol, and be needed use.

Claims (11)

  As a disinfectant used for disinfecting contact lenses, a hydrogen peroxide-containing aqueous solution having a hydrogen peroxide concentration of 1 to 5% is allowed to contain an A component composed of a compound having at least one carboxyl group in the molecule, and An antiseptic solution for contact lenses, comprising a B component comprising a compound having a plurality of hydroxyl groups in the molecule and having a pH adjusted to 6-8.   The antiseptic solution for contact lenses according to claim 1, wherein the A component and the B component are contained at a ratio of 5/1 to 1/3 in a weight ratio of A component / B component.   The contact lens disinfectant according to claim 1 or 2, wherein the component A has 1 to 3 carboxyl groups in the molecule.   4. The component A according to claim 1, wherein the component A is selected from the group consisting of glycolic acid, lactic acid, tartaric acid, succinic acid, fumaric acid, maleic acid, malic acid, aconitic acid, glutaric acid and citric acid. Disinfectant for contact lenses as described in 1.   The component B is selected from the group consisting of a polyhydric alcohol having a hydrocarbon group having 3 to 20 carbon atoms, a monosaccharide, an oligosaccharide having 2 to 5 sugars, a sugar alcohol, and polyethylene glycol. The disinfectant for contact lenses according to any one of the above.   The disinfecting solution for contact lenses according to any one of claims 1 to 5, wherein the component A is contained at a concentration of 0.01 to 1%.   The contact lens disinfecting solution according to any one of claims 1 to 6, wherein the contact lens is a soft contact lens. A contact lens for neutralizing a hydrogen peroxide-containing disinfectant solution having a hydrogen peroxide concentration of 1 to 5%, which is used for disinfection, by bringing it into contact with a decomposition / neutralizing agent comprising a metal catalyst, an enzyme agent or a reducing agent. In the disinfection system of
The contact lens disinfection system using the disinfectant according to any one of claims 1 to 7 as the disinfectant.   9. The contact lens disinfection system according to claim 8, wherein a metal catalyst is used as the decomposition / neutralizing agent, and a compound having a carboxyl group but not an amino group is used as the component A.   The contact lens disinfection system according to claim 9, wherein the metal catalyst is a metal film catalyst. The metal catalyst is disposed in a predetermined processing container for disinfecting the contact lens, the disinfecting liquid is accommodated in the processing container, and the disinfecting liquid accommodated is brought into contact with the metal catalyst. The contact lens disinfection system according to any one of claims 8 to 10, wherein the contact lens disinfection system is provided.